U.S. patent number 7,248,430 [Application Number 10/803,437] was granted by the patent office on 2007-07-24 for magnetic recording and reproduction apparatus.
This patent grant is currently assigned to Matsushita Electric Industrial Co., Ltd.. Invention is credited to Koichiro Hirabayashi, Hiroshi Kanchiku, Akio Konishi, Takefumi Yanagihara, Hitoshi Yasutomi.
United States Patent |
7,248,430 |
Konishi , et al. |
July 24, 2007 |
Magnetic recording and reproduction apparatus
Abstract
A magnetic recording and reproduction apparatus includes an arm
section pivotable about a pivoting shaft; a tape guide section
provided on the arm section for guiding a magnetic tape; a capstan
section for driving the magnetic tape so as to run; and a
maintaining section provided on the capstan section. The arm
section is pivotable between a first location and a second
location. The first location is a location at which the information
recording to and/or information reproduction from the magnetic tape
is possible. The second location is a location at which the
information recording to and/or information reproduction from the
magnetic tape is not possible. When the arm section pivots from the
second location to the first location, the maintaining section
maintains a relative position of the arm section, which is in the
first location, to the capstan section.
Inventors: |
Konishi; Akio (Sanda,
JP), Hirabayashi; Koichiro (Hirakata, JP),
Kanchiku; Hiroshi (Nara, JP), Yasutomi; Hitoshi
(Daito, JP), Yanagihara; Takefumi (Saijo,
JP) |
Assignee: |
Matsushita Electric Industrial Co.,
Ltd. (Kadoma, JP)
|
Family
ID: |
33127212 |
Appl.
No.: |
10/803,437 |
Filed: |
March 18, 2004 |
Prior Publication Data
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Document
Identifier |
Publication Date |
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US 20040201004 A1 |
Oct 14, 2004 |
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Foreign Application Priority Data
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Mar 19, 2003 [JP] |
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2003-075675 |
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Current U.S.
Class: |
360/85;
G9B/15.039; G9B/15.08; G9B/15.089 |
Current CPC
Class: |
G11B
15/29 (20130101); G11B 15/61 (20130101); G11B
15/6656 (20130101) |
Current International
Class: |
G11B
15/26 (20060101) |
References Cited
[Referenced By]
U.S. Patent Documents
Primary Examiner: Nguyen; Hoa T.
Assistant Examiner: Blouin; Mark
Attorney, Agent or Firm: Renner, Otto, Boisselle &
Sklar, LLP
Claims
What is claimed is:
1. A magnetic recording and reproduction apparatus, comprising: an
arm section pivotable about a pivoting shaft; a tape guide section
provided on the arm section for guiding a magnetic tape; a capstan
section for driving the magnetic tape so as to run; and a
maintaining section provided on the capstan section; wherein: the
arm section is pivotable between a first location and a second
location; the first location is a location at which the information
recording to and/or information reproduction from the magnetic tape
is possible; the second location is a location at which the
information recording to and/or information reproduction from the
magnetic tape is not possible; and when the arm section pivots from
the second location to the first location, the maintaining section
maintains a relative position of the arm section, which is in the
first location, to the capstan section.
2. A magnetic recording and reproduction apparatus according to
claim 1, wherein as the arm section pivots from the second location
to the first location, the tape guide section pulls out the
magnetic tape.
3. A magnetic recording and reproduction apparatus according to
claim 1, wherein: the tape guide section is provided on the arm
section so as to maintain a relative tilt of the tape guide section
to the arm section; the maintaining section is provided on the
capstan section so as to maintain a relative tilt of the
maintaining section to the capstan section; and when the arm pivots
from the second location to the first location, the maintaining
section maintains a relative tilt of the arm section, which is in
the first location, to the capstan section.
4. A magnetic recording and reproduction apparatus according to
claim 1, further comprising: a cylinder for recording information
to and/or reproducing information from the magnetic tape; a first
chassis section having the cylinder provided thereon; and a second
chassis section on which a cassette accommodating the magnetic tape
is mountable, the second chassis section being movable with respect
to the first chassis section; wherein in accordance with the
movement of the second chassis section, the arm section pivots from
the second location to the first location.
5. A magnetic recording and reproduction apparatus according to
claim 4, wherein: the first chassis section has a first chassis
surface having the cylinder thereon, and a second chassis surface
substantially perpendicular to the first chassis surface; the
capstan section includes a pivoting adjusting section for pivoting
the capstan section along a plane parallel to the second chassis
surface so as to adjust a tilt of the capstan section; the second
chassis surface has an engaging section engageable with the
pivoting adjusting section; the pivoting adjusting section pivots
in accordance with the pivoting of the capstan section; and the
pivoting center of the pivoting adjusting section substantially
matches the position of the maintaining section.
6. A magnetic recording and reproduction apparatus according to
claim 1, wherein when the arm section pivots from the second
location to the first location, the tape guide section is located
in the vicinity of the maintaining section.
7. A magnetic recording and reproduction apparatus according to
claim 1, further comprising a plurality of guide posts for guiding
the magnetic tape; wherein: one of the plurality of guide posts is
the tape guide section; and when the arm section pivots from the
second location to the first location, the tape guide section is
closest to the capstan section among the plurality of guide posts.
Description
This non-provisional application claims priority under 35 U.S.C.,
.sctn.119(a), on Patent Application No. 2003-075675 filed in Japan
on Mar. 19, 2003, the entire contents of which are hereby
incorporated by reference.
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a magnetic recording and
reproduction apparatus which is compact and lightweight and is
superb in productivity.
2. Description of the Related Art
Recently, the reduction of the size, weight and production cost of
magnetic recording and reproduction apparatuses has become
desirable.
Hereinafter, a conventional magnetic recording and reproduction
apparatus will be described.
A conventional magnetic recording and reproduction apparatus as
described in Japanese Laid-Open Publication No. 11-273184 is
known.
FIG. 8 is a plan view of a conventional magnetic recording and
reproduction apparatus in a state where a cassette is mounted but a
tape is not loaded (unloading mode). Some components are omitted
from FIG. 8 for simplicity.
Reference numeral 110 represents a cassette, and reference numeral
112 represents a magnetic tape extended in the cassette 110. The
magnetic tape 112 is wound around an S reel 113 and a T reel 119
accommodated in the cassette 110.
Reference numeral 118 represents a sub chassis, on which the
cassette 110 is mountable. The sub chassis 118 is guided by guide
sections (not shown) on both sides of a main chassis 150 and is
movable in directions represented by arrows A and B.
Reference numeral 120 represents an S reel stand and reference
numeral 122 represents a T reel stand, both of which are rotatably
provided on the sub chassis 118. The S reel stand 120 is engageable
with the S reel 113, and the T reel stand 122 is engageable with
the T reel 119.
Reference numeral 124 represents a tension arm, which is provided
on the sub chassis 118 so as to be pivotable about a tension arm
shaft 126. A tension post 128 is provided at one end of the tension
arm 124.
FIG. 9 shows the magnetic recording and reproduction apparatus
shown in FIG. 8 in a tape reproduction or recording state
(hereinafter, referred to as a "loading mode"). In this mode, the
magnetic tape 112 is wound around the tension post 128. The tension
post 128 varies the tension of the tension band 130 in accordance
with the tension of the magnetic tape 112, and controls the
rotation torque of the S reel stand 120 around which the tension
band 130 is wound.
Reference numeral 132 represents an S boat and reference numeral
134 represents a T boat. The S boat 132 has an S1 post 136 provided
thereon, and the T boat 134 has a T1 post 138 and a T2 post 140
provided thereon. In order to obtain the loading mode shown in FIG.
9, the magnetic tape 112 is pulled out from the cassette 110 along
boat guide grooves 142 and 144 and wound around a cylinder 146.
Reference numeral 148 represents a pinch arm pivotably supported by
the main chassis 150. A pinch roller 152 is provided at one end of
the pinch arm 148.
In order to obtain the loading mode shown in FIG. 9, the pinch arm
148 is pivoted clockwise and pressure-contacts the pinch roller 152
by a pressure-contacting spring (not shown) to a capstan shaft 156
of a capstan 154 with the magnetic tape 112 sandwiched between the
pinch roller 152 and the capstan shaft 156. The capstan 154 is
provided on the main chassis 150.
Reference numeral 158 represents a T3 post arm, which is supported
by the sub chassis 118 to be pivotable about a pivoting shaft
159.
A T3 post 160 is provided at one end of the T3 post arm 158, and a
cam pin 161 is provided at the other end of the T3 post arm 158.
The cam pin 161 is in engagement with a cam groove 151 formed in
the main chassis 150. While the sub chassis 118 moves in the
direction of arrow A to place the magnetic recording and
reproduction apparatus into the loading mode shown in FIG. 9, the
engagement of the cam pin 161 and the cam groove 151 pivots the T3
post arm 158 clockwise, so that the T3 post 160 at the end of the
T3 post arm 158 pulls out the magnetic tape 112 from the cassette
110 and winds the magnetic tape 112 around the capstan shaft
156.
The movement of the sub chassis 118 in the directions of arrows A
and B is driven by cams (not shown) provided for the elements
described above by the rotation of a loading motor 151. The
transformation of the magnetic recording and reproduction apparatus
from the unloading mode shown in FIG. 8 to the loading mode shown
in FIG. 9 is driven by the cams.
FIG. 10 is a front view of the capstan shaft 156 in the loading
mode shown in FIG. 9.
The capstan 154 has the following structure. A stator 174 of a
motor is secured to a housing 172, and the capstan shaft 156
provided with a rotor 176 is rotatably supported.
The housing 172 is secured to a rear wall 178 of the main chassis
150 by screws 180 (FIG. 9) in the state where the running of the
magnetic tape 112 has been adjusted. The rear wall 178 is formed by
drawing.
As shown in FIG. 10, the running of the magnetic tape 112 is
adjusted by pivoting the housing 172 in directions represented by
arrow D and E. Thus, the magnetic tape 112 can run with no
possibility of being damaged.
The above-described magnetic recording and reproduction apparatus
have the following problems.
When a large tension is generated in the magnetic tape 112, a large
force is generated in the T3 post 160 in a direction represented by
arrow F (FIG. 9). As a result, a problem occurs that the T3 post
arm 158 may be easily deformed, or the T3 post 160 may be
positionally deviated, easily damaging the magnetic tape 112.
While the capstan shaft 156 is pivoted in the directions of arrows
D and E for adjusting the running of the magnetic tape 112, it is
desirable to maintain the T3 post 160 parallel to the capstan shaft
156 in order to avoid damaging the magnetic tape 112. However, this
is difficult since the capstan shaft 156 is provided on the main
chassis 150 and the T3 post 160 is provided on the sub chassis
118.
SUMMARY OF THE INVENTION
A magnetic recording and reproduction apparatus includes an arm
section pivotable about a pivoting shaft; a tape guide section
provided on the arm section for guiding a magnetic tape; a capstan
section for driving the magnetic tape so as to run; and a
maintaining section provided on the capstan section. The arm
section is pivotable between a first location and a second
location. The first location is a location at which information
recording to and/or information reproduction from the magnetic tape
is possible. The second location is a location at which information
recording to and/or information reproduction from the magnetic tape
is not possible. When the arm section pivots from the second
location to the first location, the maintaining section maintains a
relative position of the arm section, which is in the first
location, to the capstan section.
In one embodiment of the invention, as the arm section pivots from
the second location to the first location, the tape guide section
pulls out the magnetic tape.
In one embodiment of the invention, the tape guide section is
provided on the arm section so as to maintain a relative tilt of
the tape guide section to the arm section. The maintaining section
is provided on the capstan section so as to maintain a relative
tilt of the maintaining section to the capstan section. When the
arm pivots from the second location to the first location, the
maintaining section maintains a relative tilt of the arm section,
which is in the first location, to the capstan section.
In one embodiment of the invention, the magnetic recording and
reproduction apparatus further includes a cylinder for recording
information to and/or reproducing information from the magnetic
tape; a first chassis section having the cylinder provided thereon;
and a second chassis section on which a cassette accommodating the
magnetic tape is mountable, the second chassis section being
movable with respect to the first chassis section. In accordance
with the movement of the second chassis section, the arm section
pivots from the second location to the first location.
In one embodiment of the invention, the first chassis section has a
first chassis surface having the cylinder thereon, and a second
chassis surface substantially perpendicular to the first chassis
surface. The capstan section includes a pivoting adjusting section
for pivoting the capstan section along a plane parallel to the
second chassis surface so as to adjust a tilt of the capstan
section. The second chassis surface has an engaging section
engageable with the pivoting adjusting section. The pivoting
adjusting section pivots in accordance with the pivoting of the
capstan section. The center of pivoting of the pivoting adjusting
section substantially matches the position of the maintaining
section.
In one embodiment of the invention, when the arm section pivots
from the second location to the first location, the tape guide
section is located in the vicinity of the maintaining section.
In one embodiment of the invention, the magnetic recording and
reproduction apparatus further includes a plurality of guide posts
for guiding the magnetic tape. One of the plurality of guide posts
is the tape guide section. When the arm section pivots from the
second location to the first location, the tape guide section is
closest to the capstan section among the plurality of guide
posts.
A magnetic recording and reproduction apparatus has a structure in
which a T3 post arm is secured to the housing of the capstan.
Owing to such a structure, the tilt of the T3 post is integrally
adjusted with the tilt of the capstan shaft, and the magnetic tape
can be protected against being damaged.
Thus, the invention described herein makes possible the advantages
of providing a magnetic recording and reproduction apparatus which
avoids damaging a magnetic tape with a simple structure.
These and other advantages of the present invention will become
apparent to those skilled in the art upon reading and understanding
the following detailed description with reference to the
accompanying figures.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a plan view of a magnetic recording and reproduction
apparatus according to an example of the present invention in a
state where a tape cassette is mounted but a tape is not loaded
(unloading mode);
FIG. 2 is a plan view of the magnetic recording and reproduction
apparatus shown in FIG. 1 in a tape reproduction or recording state
(loading mode);
FIG. 3 is a partially cut side view of the magnetic recording and
reproduction apparatus shown In FIG. 1 in the unloading mode;
FIG. 4 is a partially cut side view of the magnetic recording and
reproduction apparatus shown in FIG. 2 in the loading mode;
FIG. 5 is a partial plan view of the magnetic recording and
reproduction apparatus shown in FIG. 2 in the loading mode;
FIG. 6 is a partially cut side view of the magnetic recording and
reproduction apparatus shown in FIG. 2 in the loading mode;
FIG. 7 is a partial front view of the magnetic recording and
reproduction apparatus;
FIG. 8 is a plan view of a conventional magnetic recording and
reproduction apparatus in the unloading mode;
FIG. 9 is a plan view of the conventional magnetic recording and
reproduction apparatus shown in FIG. 8 in the loading mode; and
FIG. 10 is a partial front view of the conventional magnetic
recording and reproduction apparatus.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
According to the present invention, a magnetic recording and
reproduction apparatus includes a second chassis section which can
be in a second state where a cassette accommodating a magnetic tape
can be mounted or taken out or a first state where the magnetic
tape can run; a capstan section including a capstan shaft for
driving the magnetic tape, a housing for rotatably supporting the
capstan shaft, and a motor section for driving the capstan shaft; a
first chassis section for supporting the second chassis section so
as to be movable between a first position corresponding to the
first state of the second chassis section and a second position
corresponding to the second state of the second chassis section; a
pull-out post section including a tape guide post attached to a tip
of an arm which is pivotably supported by the second chassis
section; and a restriction section integrally formed with the
housing of the capstan section for restricting the position of the
pull-out post section. In the first state in which the second
chassis is at the first position, the tape guide post of the
pull-out post section is in engagement with the restriction section
and thus positioned. The tilt of the pull-out post section is
integrally adjusted with the tilt of the capstan section.
Also according to the present invention, the first chassis section
includes a first surface for supporting some of the components and
a second surface perpendicular to the first surface for securing
the capstan section. The housing is secured to the second surface
of the first chassis section. A pivoting adjusting section and a
securing section are provided on the second surface, such that the
housing can be optimally adjusted in a limited range when the
housing is temporarily secured. The pivoting center of the pivoting
adjusting section substantially matches the position of the
restriction section. Thus, even after the tilt of the capstan
section is adjusted, the height of the pull-out section is not
changed, and no extra force is generated.
According to the present invention, the restriction section is
provided in the vicinity of the pull-out post section in the first
state of the second chassis section. Even when the tilt of the
capstan section is adjusted, the height of the pull-out post
section is not changed.
Hereinafter, the present invention will be described byway of
illustrative examples with reference to the FIGS. 1 through 7.
FIG. 1 is a plan view of a magnetic recording and reproduction
apparatus according to the present invention in a state where a
tape cassette is mounted but a tape is not loaded (hereinafter,
referred to as an "unloading mode" or "second state"). In FIG. 1,
some parts are omitted for the sake of simplicity.
Reference numeral 10 represents a tape cassette, and reference
numeral 12 represents a magnetic tape extended in the tape cassette
10. The magnetic tape 12 is wound around an S reel 13 and a T reel
19 accommodated in the tape cassette 10.
Reference numeral 18 represents a sub chassis (second chassis
section), on which the tape cassette 10 is mountable. The sub
chassis 18 has side walls 62 (FIG. 3) along both sides of a main
chassis 50 (first chassis section) and projections 64 respectively
provided on the side walls 62. The side walls 62 are formed by
drawing. The sub chassis 18 is guided by the projections 64 being
guided along guide grooves 68 of the main chassis 50. Thus, the sub
chassis 18 is movable in directions represented by arrows A and B.
The main chassis 50 includes a first chassis surface having a
cylinder 46 provided thereon and a second chassis surface. The
cylinder 46 is provided for recording information to and/or
reproducing information from the magnetic tape 12.
Reference numeral 20 represents an S reel stand and reference
numeral 22 represents a T reel stand, both of which are rotatably
provided on the sub chassis 18. The S reel stand 20 is engageable
with the S reel 13, and the T reel stand 22 is engageable with the
T reel 19.
Reference numeral 24 represents a tension arm (arm section), which
is provided on the sub chassis 18 so as to be pivotable about a
tension arm shaft 26. A tension post 28 is provided at one end of
the tension arm 24.
FIG. 2 shows the magnetic recording and reproduction apparatus
shown in FIG. 1 in a tape reproduction or recording state
(hereinafter, referred to as a "loading mode" or "first state"). In
this mode, the magnetic tape 12 is wound around the tension post
28. The tension post 28 varies the tension of the tension band 30
in accordance with the tension of the magnetic tape 12, and
controls the rotation torque of the S reel stand 20 along which the
tension band 30 is wound.
Reference numeral 32 represents an S boat and reference numeral 34
represents a T boat. The S boat 32 has an S1 post 36 provided
thereon, and the T boat 34 has a T1 post 38 and a T2 post 40
provided thereon. In order to obtain the loading mode shown in FIG.
2, the magnetic tape 12 is pulled out from the tape cassette 10
along boat guide grooves 42 and 44 and wound around the cylinder
46.
Reference numeral 48 represents a pinch arm pivotably supported by
the main chassis 50. A pinch roller 52 is provided on one end of
the pinch arm 48.
In order to obtain the loading mode shown in FIG. 2, the pinch arm
48 is pivoted clockwise and pressure-contacts the pinch roller 52
by a pressure-contacting spring (not shown) to a capstan shaft 56
of a capstan 54 with the magnetic tape 12 sandwiched between the
pinch roller 52 and the capstan shaft 56. The capstan 54 is
provided on the main chassis 50.
The capstan 54 is shown in detail in FIG. 3. A stator 74 of a motor
is secured to a housing 72, and the capstan shaft 56 provided with
a rotor 76 is rotatably supported.
Reference numeral 58 represents a T3 post arm, which is supported
by the sub chassis 18 so as to be pivotable about a pivoting shaft
59.
A T3 post 60 (tape guide section) is provided at one end of the T3
post arm 58 such that, for example, a relative tilt of the T3 post
60 to the T3 post arm 58 is maintained. A cam pin 61 is provided at
the other end of the T3 post arm 58. The cam pin 61 is engaged with
a cam groove 51 formed in the main chassis 50. While the sub
chassis 18 moves in the direction of arrow A to place the magnetic
recording and reproduction apparatus into the loading mode shown in
FIG. 2, the engagement of the cam pin 61 and the cam groove 51
pivots the T3 post arm 58 clockwise, i.e., from a second location
to a first location. As a result, the T3 post 60 at the end of the
T3 post arm 58 pulls out the magnetic tape 12 from the cassette 10
and winds the magnetic tape 12 around the capstan shaft 56. The
first location of the T3 post arm 58 corresponds to the first state
of the sub chassis 18 (FIG. 2), and the second location of the T3
post arm 58 corresponds to the second state of the sub chassis 18
(FIG. 1).
On the housing 72 of the capstan 54, a V-shaped groove section 71
(maintaining section) is provided such that a tilt of the V-shaped
groove section 71 to the capstan 54 is maintained. The V-shaped
groove section 71 may be integrally formed with the capstan 54. The
V-shaped groove section 71 is provided for holding a tip 63 of the
T3 post arm 58 and positioning the T3 post arm 58.
The tip 63 of the T3 post arm 58 moves in the direction of arrow A
by the movement of the sub chassis 18 in the direction of arrow A.
Then, as shown in FIGS. 5 and 6, the T3 post arm 58 is engaged with
the V-shaped groove section 71. Thus, a relative position of the T3
post arm 58 to the housing 72 is maintained. For example, the
height or tilt of the T3 post arm 58 with respect to the housing 72
is restricted. In this state, the T3 post 60 is located in the
vicinity of the V-shaped groove section 71. Also in this state, the
T3 post 60 is closest to the capstan 54 among a plurality of guide
posts for guiding the magnetic tape 12 (the tension post 28, the S1
post 36, the T1 post 38, and the T2 post 40).
The movement of the sub chassis 18 in the directions of arrows A
and B is driven by cams (not shown) provided for the elements
described above by the rotation of a loading motor 51. The
transformation of the magnetic recording and reproduction apparatus
from the unloading mode shown in FIG. 1 to the loading mode shown
in FIG. 2 is driven by the cams.
The housing 72 is secured to a rear wall 78 of the main chassis 50
by screws 80 (FIG. 4) in the state where the running of the
magnetic tape 12 has been adjusted. The rear wall 78 is formed by
drawing. The rear wall 78 has a positioning hole 82 (FIG. 7;
engaging section). A positioning projection 86 (pivoting adjusting
section) provided on the housing 72 is engaged with the positioning
hole 82, and thus the capstan 54 is positioned and secured to the
rear wall 78.
FIG. 7 is a front view of the capstan shaft 56 in the loading
mode.
As shown in FIG. 7, the positioning projection 86 is provided in
the vicinity of the intersection of the T3 post 60 and the T3 post
arm 58 when seen in a direction vertical to the rear wall 78, more
specifically, from the frontal direction.
The tilt of the capstan shaft 56 is adjusted by pivoting the
housing 72 in the directions of arrows D and E about the
positioning projection 86. For example, the positioning projection
86 substantially matches the position of the V-shaped groove
section 71.
Since the tip 63 of the T3 post 60 is held in the V-shaped groove
section 71 provided in the housing 72, the tilt of the T3 post 60
is adjusted integrally with the tilt of the capstan shaft 56.
If the height of the T3 post 60 was changed by the adjustment, top
and bottom perimeters of the magnetic tape 12 would be easily
damaged since the magnetic tape 12 is interposed between upper and
lower flanges 73 and 75. According to the present invention, the
positioning projection 86 as the pivoting center of the housing 72
and the V-shaped groove section 71 are located in the vicinity of
the T3 post 60. Therefore, the heights of the upper and lower
flanges 73 and 75 are not changed and thus the magnetic tape 12 is
not damaged by the adjustment.
The T3 post arm 58 is twisted at a very small angle by the
adjustment, and the degree of twisting of the T3 post arm 58 can be
restricted to a minimum degree because the center of the twisting
substantially matches the height of the T3 post arm 58. Thus, the
twisting of the T3 post 58 does not have any large stress on a
pivoting shaft 59 or the sub chassis 18.
As described above, in a magnetic recording and reproduction
apparatus of the present invention, when the arm section moves from
the second location (corresponding to the second state of the
second chassis section where the information recording to and/or
information reproduction from the magnetic tape is not possible) to
the first location (corresponding to the first state of the second
chassis section where the information recording to and/or
information reproduction from the magnetic tape is possible), the
maintaining section provided on the capstan section maintains the
relative position of the arm section, which is in the first
location, to the capstan section.
Therefore, even when the magnetic tape strongly pulls the tape
guide section while the arm is in the first location, the relative
position of the capstan section to the tape guide section does not
change.
As a result, damage to the magnetic tape which is caused by a
change in the relative position of the capstan section to the tape
guide section can be prevented.
As described above, according to the present invention, a V-shaped
groove section engageable with the T3 post arm is provided in the
housing of the capstan. Therefore, even when the tilt of the
capstan shaft is adjusted, the relative position of the capstan
shaft to the T3 post is not changed, and thus the magnetic tape is
protected against being damaged.
Since the pivoting center for the tilt adjustment is in the
vicinity of the height of the T3 post arm, a large stress is not
generated by the adjustment.
Various other modifications will be apparent to and can be readily
made by those skilled in the art without departing from the scope
and spirit of this invention. Accordingly, it is not intended that
the scope of the claims appended hereto be limited to the
description as set forth herein, but rather that the claims be
broadly construed.
* * * * *